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GF Package (EM Green's function near an interface) written by , J. C. Schotland, and V. A. Markel.
ScattPort 17. Aug. 2009
Erythrocyte shape
Thomas Wriedt
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To compute light scattering by the erythrocyte or red blood cell (RBC) various computer programs are available such as DDSCAT, ADDA, MMP3D and many FDTD programs [1]. To describe the shape of the erythrocyte the implicit equation given by Kuchel and Fackerell [2] is suitable:
(x^2+y^2+z^2)^2+P*(x^2+y^2)+Q*z^2+R=0
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OpenMaX by Christian Hafner, ETH Zürich is a graphic platform for Computational Electromagnetic and Computational Optics on personal computers under Windows 95/98/ME/NT/2000/XP/Vista.
Delphi code by Uwe Kätzel to compute multiple scattering by a number of spheres.
- Link (22 Jul 2009)
- Thesis: Uwe Kätzel: Dynamic Light Scattering for the Characterization of Polydisperse Fractal Systems by the Example of Pyrogenic Silica. Dissertation, Technischen Universität Dresden, Dresden 2007.
OpenMie by Magnus Lundmark is Python program under the GNU General Public License to code to calculate Mie scattering from spheres and spherical shells.
Pol-MC by Daniel Côté, Alex Vitkin and Brian Wilson is a three-dimensional polarization-sensitive Monte Carlo algorithm for tissue optics.
MieLab is a GUI software by Ovidio Peña-Rodríguez for calculating electromagnetic scattering of by multilayered spheres.
Mie program for PDA (Pocket-PC) with Windows CE by Norbert Riefler. Based on the Matlab clone LME (Lightwave Math Engine).
ScattNLay is a C-program by O. Peña and U. Pal to compute scattering of electromagnetic radiation by a multi-layered sphere. CPC Catalogue identifier: AEEY_v1_0.
ScattNLay 2.0
Fortran code for a semi-empirical model of absorption and scattering by isotropic fractal aggregates of spheres by Pascal Rannou.
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